Macrocyclic natural

An obvious drawback in RCM-based synthesis of unsaturated macrocyclic natural compounds is the lack of control over the newly formed double bond. The products formed are usually obtained as mixture of ( /Z)-isomers with the (E)-isomer dominating in most cases. The best solution for this problem might be a sequence of RCAM followed by (E)- or (Z)-selective partial reduction. Until now, alkyne metathesis has remained in the shadow of alkene-based metathesis reactions. One of the reasons maybe the lack of commercially available catalysts for this type of reaction. When alkyne metathesis as a new synthetic tool was reviewed in early 1999 [184], there existed only a single report disclosed by Fiirstner s laboratory [185] on the RCAM-based conversion of functionalized diynes to triple-bonded 12- to 28-membered macrocycles with the concomitant expulsion of 2-butyne (cf Fig. 3a). These reactions were catalyzed by Schrock s tungsten-carbyne complex G. Since then, Furstner and coworkers have achieved a series of natural product syntheses, which seem to establish RCAM followed by partial reduction to (Z)- or (E)-cycloalkenes as a useful macrocyclization alternative to RCM. As work up to early 2000, including the development of alternative alkyne metathesis catalysts, is competently covered in Fiirstner s excellent review [2a], we will concentrate here only on the most recent natural product syntheses, which were all achieved by Fiirstner s team. 

Meng, Q., Hesse, M. Ring Closure Methods in the Synthesis of Macrocyclic Natural Products. 161, 107-176 (1991). 

Synthetic macrocycles - Natural macrocycles Bioinorganic chemistry ... 

Keywords Macrocycles Natural products Diversity-oriented synthesis ... 

Total synthesis of complex (macrocyclic) natural products using fast and flexible strategies and diversity-oriented synthesis of natural product-like macrocycles are important research topics in our laboratory. The following sections describe the total synthesis of epothilone D and epothilone D5 analogues, DOS of cyclopeptide alkaloid analogues, of biaryl ether macrocycles, and of steroid/peptide hybrid macrocycles, respectively. 

Special synthetic problems in the elaboration of ligands of type A—J are connected with their macrocyclic nature. 

The transition metal catalyzed synthesis of seven membered and larger heterocycles attracted considerably less attention than the preparation of their five and six membered analogues. Typical examples in this chapter include the formation of heterocycles in insertion reactions, or through carbon-heteroatom bond formation. Although the formation of some macrocyclic natural products was also achieved in cross-coupling reactions they will not be discussed in detail. 

The formation of seven membered heterocycles and larger rings through cross-coupling reactions is quite rare (except for some macrocyclic natural products). An example of such a process is presented in 5.1. The intramolecular Stille-coupling of the tributylstannyl-indole and vinyl bromide moieties led to the formation of a seven membered ring in good yield.1... 

When 18-crown-6 was co-lyophilized with a-chymotrypsin, a 470-fold activation was seen over the free enzyme in the transesterification of APEE with 1-propanol in cyclohexane (Scheme 3.2) [96]. There was a low apparent specificity for the size and macrocyclic nature of the crown ether additives, suggesting that, during lyophilization, 18-crown-6 protects the overall native conformation and acts as a lyoprotectant. To examine this global effect, FTIR was used to examine the effect of crown ethers on the secondary structure of enzymes. In one study [98], subtilisin Carlsberg was shown to retain its secondary structure in 1,4-dioxane when lyophi-lized in a 1 1 ratio with 18-crown-6. In addition, examination of FTIR spectra from varying incubation temperatures indicated that an increase in crown ether content in the final enzyme preparation resulted in a decreased denaturation temperature in the solvent, indicating a more flexible protein structure. 

We sorely need new and improved anticancer drugs. Much excitement has been generated by the development of taxol (78), a macrocyclic natural product with a novel mechanism, the stabilization of microtubules (Suffness,... 

E. McDonald, Biosynthesis of the pigments of life Formation of the macrocycle. Nature 285 17, 1980. This paper discusses the steps in tetrapyrrole biosynthesis and the pathways diverting this nucleus to chlorophylls, hemes, cytochromes, and other macrocyclic pigments. 

The macrocyclic nature of the low molecular weight extractable fraction. 

The Stork-Takahashi method has been applied to the synthesis of a number of macrocyclic natural products including Muscone,217 Sarcophytol-A2H and Peri-planone B.220... 

---